以半导体共振腔内光子与原子的纠缠特性作为量子位,通过半导体共振腔电动力学系统将原子态转换成光子态,根据半导体共振腔的工作特性,提出共振腔内原子与光子弱耦合与强耦合的判断条件,并利用外加电磁场对原子的量子态进行操控,从而完成量子逻辑门的操作,再通过各共振腔量子电动力学(CQED)系统间的纠缠进行量子位扩充,实现量子计算与量子网络.介绍微碟型共振腔与单一量子点等多种模型,有助于将量子运算与量子通讯的概念转变为半导体量子器件的研制.
参考文献
| [1] | Duan L M;Monroe C.Robust probabilistic quantum information processing with atoms photons and atomic ensembles[J].ADVANCES IN ATOMIC MOLECULAR AND OPTICAL PHYSICS,200855:419-463. |
| [2] | He Y;Jiang N Q.Schemes to generate and distinguish a type of genuine four-qubit entangled states in a cavity QED system[J].Optics communication,2010283(03):1558-1560. |
| [3] | Liao C G;Yang Z B;Luo C L.Dynamics for two cavity QED systems coupled by an optical fiber[J].Optics communication,2011284(03):1920-1924. |
| [4] | Shen K.Introduction to Quantum Optics(量子光学导论)[M].Beijing:Beijing Institute of Technology Press,1995:266-267. |
| [5] | Wang J X;Yang Z Y;An Y Y.Quantum information transfer in the proeess of coupled atoms interaeting with cavity fields (in Chinese)[J].Chinese Journal of High Energy Physics and Nuclear Physics(高能物理与核物理),200731(02):204-208. |
| [6] | Fernandez J M E;Martinez A.Jaynes-Cummings model of an indirect gap semiconductor cavity[J].Quantum Optics Ⅱ,201216(05):14-19. |
| [7] | Hsing J Y;Tzeng T E;Kuo M Y.Microdisk cavity laser with InGaAs quantum dots on A1As/GaAs distributed Bragg reflector[J].Journal of Crystal Growth,2013378(01):622-626. |
| [8] | Weng W C.On the physics of semiconductor quantum dots for applications in lasers and quantum optics[J].Progress in Quantum Electronics,201337(03):109-184. |
| [9] | Nemcsics A;Tóth L;Dobos L.Facetting of the self-assembled droplet epitaxial GaAs quantum dot[J].Microelectronics Reliability,201151(05):927-930. |
| [10] | Liu W P;Song X K;Ye L.An easy scheme for implementing conditional logic gate in cavity QED (in Chinese)[J].Chinese Journal of Quantum Electronics(量子电子学报),201330(06):738-742. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%